Purchasing Power Parity (PPP) for International Comparison of Poverty: Sources and Methods

Sultan Ahmad[*]

Contents

Introduction and Summary

Sources and Methods of PPP Estimates

Rationale for using PPP

Data required for PPP calculations

GDP Expenditure data
Price Data

Selection of items

Balancing comparability and representativeness

Collection of prices

Computation of PPPs
Basic heading parities

The EKS Method

The CPD Method

PPPs for higher-level aggregates

The Geary-Khamis (GK) method

The EKS method for higher level aggregation

Linking regional results into global

Poverty PPP Data Compiled by The World Bank

Benchmark survey data
1993/96 round of surveys
Regression estimates for non-benchmark countries
Special treatment of India, Ethiopia and China
Extrapolation to non-benchmark years
Limitation of consumption PPP and what is being to address them
Initiatives to address the problems

Concluding Remarks

References

Annex A: Typical Classification of GDP Expenditure for Estimating PPP

Annex B: The World Bank estimates of consumption PPP

Annex C: Countries in ICP Surveys, 1993/96 by Region and Coordinator

Introduction and Summary

  1. For the purpose of comparing levels of poverty across countries, the World Bank uses estimates of consumption converted to US dollars using purchasing power parity (PPP) rates rather than exchange rates. PPP conversion allows national accounts aggregates in national currencies to be compared on the basis of their purchasing powers of the currencies in their respective domestic markets free from differences in price levels across countries, much the same way as constant price estimates do in a time series comparison of real values free from differences in prices over time. This paper describes the sources and methods of compiling these PPP numbers and discusses the processes used in previous rounds to calculate poverty estimates. Details of data collection and organization for the current ICP round can be found on the ICP website section under Overview of the ICP 2003-2005 round.
  1. PPP estimates are made for total GDP and its various sub-aggregates. For the purpose of comparing poverty, the World Bank uses PPP for consumption. Because PPPs for consumption are computed as a component of GDP, the sources and methods used to compile consumption PPP are the same as those used to compile GDP PPP.

Sources and Methods of PPP Estimates

Rationale for using PPP

  1. Policy makers who wish to compare levels of income and poverty across national boundaries are attracted to PPP because exchange rate conversion of national currency values of GDP and its components yields inconsistent results. This inconsistency shows up in two ways:

(a) It fails to reflect the true levels of volumes of goods and services embodied in the aggregates being compared in a given year; and

(b) It fails to reflect movements in relative volumes of these goods and services over time.

  1. This is because exchange rates do not usually reflect relative prices across countries nor do they adjust to movements in these relative prices overtime.[1]
  1. Purchasing power parity conversion eliminates both these inconsistencies. PPP is defined as the numbers of units of a country’s currency needed to buy in the country the same amounts of goods and services as, say, one US dollar would buy in the United States. They are computed on the basis of data collected in benchmark surveys, which are undertaken usually every five years but sometimes even longer. Statistically, PPPs are expenditure-weighted averages of relative prices of a vast number of goods and services on which people spend their incomes. By eliminating price differences, PPPs yield comparisons based on real quantities[2] of goods and services. As the PPPs are adjusted over time (between surveys) by relative rates of inflation, they also track movements in real quantities over time.
  1. Since one dollar converted at the PPP rate would buy the same amounts of goods and services in every country, it has been possible for the World Bank to estimate the number of people in the world living under “ a dollar a day” or “two dollars a day”[3]. It is not possible to make such estimates on the basis of exchange rate converted values since a US dollar converted at exchange rate does not typically buy the same amounts of goods and services in every country.
  1. Over the last thirty-five years or so, the vehicle for the collection of data for PPPs has been the International Comparison Program (ICP). Surveys have historically been conducted in about 120 countries at one time or another, and repeatedly in many of them. The 2004 round anticipates around 160 participant countries, including those of the European Union and the OECD. The wealth of data collected in these surveys constitutes the source from which all PPP computations are made. The World Bank’s most recent PPP estimates are derived from the 1993/96 round of surveys in which 117 countries participated.

Data required for PPP calculations

  1. As mentioned earlier, PPP is the expenditure weighted average of price ratios. Thus calculation of PPPs requires two sets of data:

(a)GDP expenditure broken down into 150-250 detailed components called “basic headings”; and

(b)National annual average prices of a sample of comparable items representing each of the basic headings.

GDP Expenditure data

  1. The GDP expenditure breakdown into basic headings and its various sub-aggregates provides the framework for a stratified sampling of items to be priced for the survey. Basic headings are the most detailed level for which expenditure data can be compiled. The number of basic headings differs from region to region. Asia and Africa have used about 150 basic headings; Europe, OECD and Latin America have used 250 or more. Reduced information surveys conducted in Western Asia and the Caribbean regions as well as in Malaysia and Lao in the 1993 round of surveys have used about 30 basic headings.
  1. Reduced information surveys were designed to include countries with limited resources or statistical capability. The method called for dividing GDP into about 30 basic headings and a price list of about 200 items. The method was based on research that established the results to be reasonable for larger aggregates such as GDP, consumption, capital formation and government.[4]
  1. The reduced information method was instrumental in increasing the number of participants in the 1993 round of surveys. However, the results were relatively unreliable as many of these countries did not have the experience or resources to do a thorough survey. The 2004 round marks a turning point for many countries as statistical capacity building efforts have enabled them to anticipate full-scale surveys for the current round.
  1. Annex A provides a typical system of classification of GDP into basic headings and various sub-aggregates. All six-digit items in Annex A represent basic headings which are aggregated progressively into five, four, three, two and one-digit sub-aggregates. The sum of one-digit sub-aggregates – household consumption, consumption of non-profit institutions, consumption of government, gross fixed capital formation, changes in stocks and net exports - is GDP. ICP methods allow for computation of PPP for any combination of basic headings, for instance, traded or non-traded goods, goods or services, and so on.
  1. Consumption in ICP differs from consumption under the 1968 UN System of National Accounts (SNA) in that it includes household consumption, consumption of non-profit institutions and the part of government expenditure (in health and education), which directly benefit households. The 1993 SNA adopted the ICP definition of private consumption and, therefore, the difference does not exist anymore. Chapter 3 of the ICP 2004 Handbook explores GDP and the main expenditure aggregates further.

Price Data

Selection of items

  1. Price data constitute the heart and soul of ICP, so much so that ICP is often referred to as “International Comparison of Prices”. Countries are asked to provide specifications of items, which are representative of each of the basic headings. Typically, the items for consumption come from each country’s list of items included in its consumer price index (CPI). Items that find a match in at least one other country are selected for pricing. The collated list of these specifications, which may contain 700 to 3000 items depending on the region, becomes the items list for the region. Table 1 provides an idea of how many items are in the specification lists of different regions and how many belong to consumption. It is clear that consumption dominates the lists of specifications, accounting for 60 to 90 percent of the total. Chapter 5 of the ICP 2004 Handbook provides an in-depth discussion of the method used to choose items for the current round.
Table 1: Number of items in GDP, Consumption and Food and beverages

By region, 1993

Region / GDP / Consumption / Food and beverages
Africa / 1300 / 1000 / 430
Asia and the Pacific (ESCAP) / 1900 / 1630 / 560
Western Asia (ESCWA)* / 200 / 138 / 42
Caribbean* / 177 / 148 / 41
Latin America / 1600 / 973 / 270
Commonwealth of Independent States (CIS) / 702 / 549 / 175
OECD / 2810 / 2500 / 600

* These two regions, and also Malaysia and Laos in the ESCAP region, participated in reduced information surveys.

Balancing comparability and representativeness
  1. The biggest problem facing selection of items for pricing is the conflict between comparability and representativeness. Items that are representative in a country may not be comparable, and comparable items may not be representative. If items are not comparable, comparisons cannot be made; if they are not representative, the results may be misleading. Comparability is ensured by brand name pricing in Europe. However, this is not possible in other regions where countries vary more widely in levels of development, diversity of products and sophistication of distributive services. So, specifications are broadly defined in terms of various characteristics, making it possible to match items without them being identical. Still, quality differences, arising mainly from retailing services such as packaging, returnability and ease of shopping, are hard to eliminate. Regionalization of ICP has somewhat eased the problem of quality differences. Quality differences of apparently similar items are less pronounced, for instance, between India and Bangladesh than between India and France.
Collection of prices
  1. Countries are asked to provide prices for their own representative items plus as many of the other items from the regional list as they can so as to provide prices for a sufficient number of items under each basic heading. Depending on the region, countries supply 500 to 1500 annual average prices.
  1. In compiling these averages, countries should, in principle, collect prices in various regions, markets and outlets spread over the entire year according to a sampling frame that yields observations for volume seller items at the most frequented outlets. In practice, surveys are generally conducted over a few months in the year and in urban centers, usually the capital city. Two types of adjustments are made to observed data: -- time-to-time and place-to-place -- to turn observed prices to reflect national and annual averages. The adjustment factors are usually obtained from each country’s consumer price or other indices. Some regions have chosen to collect prices in one city, usually the capital, and have not felt the need for making any regional adjustments. Typically three or more observations are collected for each item from each market place. Depending on the size of the country, therefore, the exercise can thus be massive, requiring resources to collect and process thousands of prices.
  1. National annual average prices for all collected items along with GDP expenditures for the basic headings are sent to regional coordinators for processing. The regional coordinators run the data through an editing process to establish consistency. They then compute PPPs and real values for each of the basic headings and various sub-aggregates leading up to GDP. Only about 50 lines of data consisting of some summary categories are presented in published reports.
Computation of PPPs
  1. Methods of multilateral rather than binary comparisons are applied in the calculation of PPPs. In multilateral comparisons, it is recognized that the introduction of a new member in the group may alter the index comparing any two countries within the group. There are many methods of computing multilateral indices. All are transitive and base country invariant meaning that the relative position of any two countries remains the same irrespective of the base country chosen. Some indices are more “characteristic” than others in that the index between two countries is influenced mostly by the data in those two countries. Other indices are additive, meaning real values of components will add up to totals.
  1. PPPs are computed at two stages: first at the basic heading level, and then at the GDP level.

Basic heading parities

  1. The regional coordinator receives price data denominated in national currencies. Typically expenditure weights are not available at the item level. The first step is to compute for each item price ratios dividing all prices by the base country price. The next step is to obtain for each basic heading an un-weighted geometric mean of the price ratios of all items included in the basic heading. The result is a basic heading parity expressed in units of a country’s currency per base country currency. Chapter 1 of the ICP 2004 Handbook covers this in more detail.
  1. This procedure works when all participants price all items in the basic heading. Since a typical price tableau has missing observations, meaning all countries do not price all items, price ratios cannot be calculated for all items, thus making some observations unusable. In this situation, price parities are calculated using the so-called Elteto-Koves-Szulc (EKS) or country-product-dummy (CPD) methods. When the price matrix is complete, the two methods converge and the resulting price parities are the same as those obtained by taking a simple geometric mean of the item prices ratios between any two countries.

The EKS Method

  1. The EKS method is a multilateral generalization of the Fisher Ideal index in that it is constructed from the geometric mean of all direct and indirect binaries. The binaries are the geometric average of the price ratios weighted by the numerator and the denominator countries, that is, by the spatial equivalent of the Paasche and Laspeyres indexes in time-series. Indirect binaries are obtained by using each of the other countries as a bridge. The direct binaries are counted twice and each indirect binary is counted only once. For example, in a 4-country comparison (say, UK, US, Japan, and Mexico), the parity between UK and US is calculated as the geometric mean of the (i) UK/US binary, ii) the indirect UK/US binary through Japan and iii) the indirect UK/US binary through Mexico, with the direct UK/US binary counted twice.
  1. EKS is premised on the assumption that a binary measure between any pairs of countries is the best measure for that pair of countries. EKS transitive parities, as such, are derived from a least squares minimization procedure, where the price relative of country j with respect to country k in a multilateral comparison deviates minimally from what would be obtained if Fisher index for the two countries were calculated independently of the other countries. The EKS procedure can be viewed as a procedure that minimizes the differences between multilateral PPPs and bilateral PPPs. EKS is calculated using the following equation, where F stands for Fisher indexes and the subscripts refer to the countries.

(1)

The CPD method

  1. The CPD method is a generalized bridge-country method using regression in which all available prices are used. (Because price ratios are not calculated, no observation is left out.) This method postulates that an individual price observation is a function of the country it is observed in and the item that it represents plus an error term. It involves regressing prices in natural logarithm against two sets of dummy variables. The first set comprises a dummy variable for each item with price information; the second set comprises a dummy variable for each country except the base country. The regression equation is represented by the following equation:

ln P(i,j) = b1x1 + b2x2 … bmxm + z1y1 + z2y2 + … zn-1yn-1 + uij (2)

Where

ln P(i,j) is the natural logarithm of the price of item i in country j;

xi is the item dummy variable; yj is the country dummy variable;

m is the number of items in the basic heading and n is the number of countries.

  1. The coefficients of the y dummy variables represent the natural logarithms of the estimated country price parity for the respective basic heading. The coefficients of the x dummy variables provide the natural logarithms of the prices in the currency of the base country.
  1. There are no observable qualitative differences between the results of EKS and CPD methods; differences in higher-level aggregates based on basic heading level PPPs computed by either CPD or EKS have not been statistically significant. Both methods deliver multilateral parities that are transitive and base country invariant, and both methods are used in obtaining basic heading parities.

PPPs for higher-level aggregates

  1. At this stage of the computation, the regional coordinators now have two matrices of equal dimension (without holes), an expenditure matrix E, and a basic heading level parity matrix P, with m rows and n columns, m standing for the number of basic headings and n for the number of countries. Then they compute an implicit quantity matrix Q, also of the same dimension, using the identity:

Q = E/P (3)

where E is expressed in local currencies and P is local currency units per base country currency. The implicit quantity matrix Q is, therefore, denominated in the base country currency. The aggregation procedure is performed on the P matrix using the Q matrix as weights. Once higher-level parities are obtained, real quantity estimates are made using the above identity.